Abstract
To investigate the chemical and sensorial impact of dry hopping time on typical pale ale, a standardized beer was produced and separated into ten vessels. Nine vessels were dry hopped, and one vessel remained un-hopped as a control. Impact of dry hopping contact time was investigated over 96 h. Polyphenols and iso-α-acid t/c ratio were analyzed in both Young and Aged beer samples. Total polyphenol content generally increased in both young and aged treatments compared to controls. Analysis of the t/c ratio suggests that both Young and Aged beers were chemically preserved to some degree after approximately 12 h at the given dry hopping rate regardless of age. Within the Aged beer trials, 96 h of dry hop contact yielded a significant increase in t/c ratio compared to all other Aged trials. This suggests that a 4-day dry hop regime may yield additional oxidative protection of iso-α-acids in beers stored unrefrigerated for 30 days. Descriptive analysis was also performed with an 8-person, trained panel; however, beers were sensorially distinguished by their aging time as opposed to their dry hopping time.
Subject
Plant Science,Health Professions (miscellaneous),Health(social science),Microbiology,Food Science
Reference33 articles.
1. De novo formation of sequiterpene Oxidation Products during wort boiling and impacts of the Kettle Hopping Regime on Sensory Characteristics of Pilot Scale Lager Beers;Praet;Brew. Sci.,2015
2. Tap into the Art and Science of Brewing;Bamforth,2009
3. DIFFERENCES IN UTILISATION OF THE ESSENTIAL OIL OF HOPS DURING THE PRODUCTION OF DRY-HOPPED AND LATE-HOPPED BEERS
4. Pale Ale: History, Brewing Technique, Recipes;Foster,1999
5. On the Origin of Free and Bound Staling Aldehydes in Beer
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